Autonomous underwater gliders monitoring variability at “choke points” in our ocean system: A case study in the Western Mediterranean Sea
Autonomous underwater gliders monitoring variability at “choke points” in our ocean system: A case study in the Western Mediterranean Sea
Recent data from an autonomous ocean glider in the Ibiza Channel (Western Mediterranean Sea) show variations in the transport volumes of water over timescales of days-weeks, as large as those previously only identifiable as seasonal or eddy driven. High frequency variation in transports of water masses has critical implications for ocean forecasting. Three potential modes of transport are proposed, which have the potential to simplify the previously observed complex pattern of flows. Restricted ‘choke points’ between ocean basins are critical locations to monitor water transport variability; the Ibiza Channel is one such ‘choke point’, where variation in the transports of water masses are known to affect the spawning grounds of commercially important fish stocks.
Balearic Sea, Mediterranean Sea, gliders, ocean variability, transports
L20604
Heslop, Emma E.
285079ea-6e94-4c36-8ac9-0845ae2e0a5e
Ruiz, Simón
6d92c4f3-40be-49c8-aea2-aa40c1b34434
Allen, John
2a40d9b5-1464-42f0-86c1-69ebb24ea05f
López-Jurado, José Luís
a928d65f-ae77-4ac8-a611-896aecc4800c
Renault, Lionel
66fbe40d-49eb-46d3-b8b5-0d4f0a42e5d4
Tintoré, Joaquín
9e13e822-e6df-4fd6-833b-98efee555572
2012
Heslop, Emma E.
285079ea-6e94-4c36-8ac9-0845ae2e0a5e
Ruiz, Simón
6d92c4f3-40be-49c8-aea2-aa40c1b34434
Allen, John
2a40d9b5-1464-42f0-86c1-69ebb24ea05f
López-Jurado, José Luís
a928d65f-ae77-4ac8-a611-896aecc4800c
Renault, Lionel
66fbe40d-49eb-46d3-b8b5-0d4f0a42e5d4
Tintoré, Joaquín
9e13e822-e6df-4fd6-833b-98efee555572
Heslop, Emma E., Ruiz, Simón, Allen, John, López-Jurado, José Luís, Renault, Lionel and Tintoré, Joaquín
(2012)
Autonomous underwater gliders monitoring variability at “choke points” in our ocean system: A case study in the Western Mediterranean Sea.
Geophysical Research Letters, 39 (20), .
(doi:10.1029/2012GL053717).
Abstract
Recent data from an autonomous ocean glider in the Ibiza Channel (Western Mediterranean Sea) show variations in the transport volumes of water over timescales of days-weeks, as large as those previously only identifiable as seasonal or eddy driven. High frequency variation in transports of water masses has critical implications for ocean forecasting. Three potential modes of transport are proposed, which have the potential to simplify the previously observed complex pattern of flows. Restricted ‘choke points’ between ocean basins are critical locations to monitor water transport variability; the Ibiza Channel is one such ‘choke point’, where variation in the transports of water masses are known to affect the spawning grounds of commercially important fish stocks.
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Published date: 2012
Keywords:
Balearic Sea, Mediterranean Sea, gliders, ocean variability, transports
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 346897
URI: http://eprints.soton.ac.uk/id/eprint/346897
ISSN: 0094-8276
PURE UUID: 85980c77-95d1-4ae8-9899-4d42c4105033
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Date deposited: 11 Jan 2013 10:34
Last modified: 14 Mar 2024 12:42
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Contributors
Author:
Emma E. Heslop
Author:
Simón Ruiz
Author:
José Luís López-Jurado
Author:
Lionel Renault
Author:
Joaquín Tintoré
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